Publication | Closed Access
Heterovalent‐Doping‐Enabled Efficient Dopant Luminescence and Controllable Electronic Impurity Via a New Strategy of Preparing II−VI Nanocrystals
79
Citations
50
References
2015
Year
Optical MaterialsEngineeringDeep Substitutional DopantsColloidal NanocrystalsChemistryElectronic PropertiesLuminescence PropertySemiconductor NanostructuresIi-vi SemiconductorNanoelectronicsNew StrategyCompound SemiconductorMaterials SciencePhotoluminescenceNanotechnologyStrong Dopant FluorescenceNanocrystalline MaterialPreparing Ii−vi NanocrystalsElectronic MaterialsNanomaterialsApplied PhysicsEfficient Dopant Luminescence
Substitutional heterovalent doping represents an effective method to control the optical and electronic properties of nanocrystals (NCs). Highly monodisperse II-VI NCs with deep substitutional dopants are presented. The NCs exhibit stable, dominant, and strong dopant fluorescence, and control over n- and p-type electronic impurities is achieved. Large-scale, bottom-up superlattices of the NCs will speed up their application in electronic devices.
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